Cholangiocarcinoma-derived secreted products and growth arrest-specific 2-like 3 enhance migratory and invasive abilities of fibroblasts

Cholangiocarcinoma-derived secreted products and growth arrest-specific 2-like 3 enhance migratory and invasive abilities of fibroblasts

Cholangiocarcinoma (CCA) is a highly aggressive cancer with limited treatment options, which highlights the urgent need for alternative therapies. One hallmark of CCA is an increase in cancer-associated fibroblasts (CAFs) accompanied by a desmoplastic reaction and fibrosis. However, the roles of CCA...

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Main Authors: Natnicha Paungpan, Kulthida Vaeteewoottacharn, Paweena Dana, Saowaluk Saisomboon, Sittiruk Roytrakul, Wiphawi Hipkaeo, Yada Polsan, Kanlayanee Sawanyawisuth, Sukanya Luang, Worachart Lert-itthiporn, Vor Luvira, Chawalit Pairojkul, Yaovalux Chamgramol, Sopit Wongkham, Seiji Okada
Format: Article
Language:English
Published: Elsevier 2025-09-01
Series:European Journal of Cell Biology
Subjects:
Bile duct cancer
Cholangiocarcinoma
Fibroblast
Secreted products
Exosome
Growth arrest-specific 2-like 3
Online Access:http://www.sciencedirect.com/science/article/pii/S0171933525000329
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Summary:Cholangiocarcinoma (CCA) is a highly aggressive cancer with limited treatment options, which highlights the urgent need for alternative therapies. One hallmark of CCA is an increase in cancer-associated fibroblasts (CAFs) accompanied by a desmoplastic reaction and fibrosis. However, the roles of CCA-secreted products in fibroblast recruitment remain unclear. This study aimed to identify the chemotactic factors in CCA-secreted products including conditioned media (CCA-CM) and exosomes that promote fibroblast recruitment. The effects of the CCA-CM and exosomes on fibroblast migration and invasion were assessed. The exosomal protein content was analyzed by tandem mass spectrometry. The role of the selected candidate protein, growth arrest-specific 2-like 3 (GAS2L3), in promoting fibroblast migration was investigated using immortalized fibroblasts and CCA-derived CAFs. These results demonstrated that both CCA-CM and exosomes significantly enhanced fibroblast migration, with GAS2L3 playing a critical role in this process. The involvement of CCA-CM and GAS2L3 in fibroblast recruitment was confirmed in clinical CAFs. To our knowledge, this study provides the first evidence that CCA-derived secreted products and GAS2L3 enhance fibroblast migration. These findings suggest CCA-derived GAS2L3 represents a novel therapeutic target for disrupting the interactions between CCA and CAFs, potentially hindering fibroblast recruitment during CCA treatment.
ISSN:0171-9335

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